// Copyright (c) Microsoft. All rights reserved. // Licensed under the MIT license. See LICENSE file in the project root for full license information. #include #include #include #include "azure_c_shared_utility/lock.h" #include "azure_c_shared_utility/optimize_size.h" #include "azure_c_shared_utility/xlogging.h" #ifndef GB_USE_CUSTOM_HEAP #ifndef SIZE_MAX #define SIZE_MAX ((size_t)~(size_t)0) #endif typedef struct ALLOCATION_TAG { size_t size; void* ptr; void* next; } ALLOCATION; typedef enum GBALLOC_STATE_TAG { GBALLOC_STATE_INIT, GBALLOC_STATE_NOT_INIT } GBALLOC_STATE; static ALLOCATION* head = NULL; static size_t totalSize = 0; static size_t maxSize = 0; static size_t g_allocations = 0; static GBALLOC_STATE gballocState = GBALLOC_STATE_NOT_INIT; static LOCK_HANDLE gballocThreadSafeLock = NULL; int gballoc_init(void) { int result; if (gballocState != GBALLOC_STATE_NOT_INIT) { /* Codes_SRS_GBALLOC_01_025: [Init after Init shall fail and return a non-zero value.] */ result = MU_FAILURE; } /* Codes_SRS_GBALLOC_01_026: [gballoc_Init shall create a lock handle that will be used to make the other gballoc APIs thread-safe.] */ else if ((gballocThreadSafeLock = Lock_Init()) == NULL) { /* Codes_SRS_GBALLOC_01_027: [If the Lock creation fails, gballoc_init shall return a non-zero value.]*/ result = MU_FAILURE; } else { gballocState = GBALLOC_STATE_INIT; /* Codes_ SRS_GBALLOC_01_002: [Upon initialization the total memory used and maximum total memory used tracked by the module shall be set to 0.] */ totalSize = 0; maxSize = 0; g_allocations = 0; /* Codes_SRS_GBALLOC_01_024: [gballoc_init shall initialize the gballoc module and return 0 upon success.] */ result = 0; } return result; } void gballoc_deinit(void) { if (gballocState == GBALLOC_STATE_INIT) { /* Codes_SRS_GBALLOC_01_028: [gballoc_deinit shall free all resources allocated by gballoc_init.] */ (void)Lock_Deinit(gballocThreadSafeLock); } gballocState = GBALLOC_STATE_NOT_INIT; } void* gballoc_malloc(size_t size) { void* result; if (gballocState != GBALLOC_STATE_INIT) { /* Codes_SRS_GBALLOC_01_039: [If gballoc was not initialized gballoc_malloc shall simply call malloc without any memory tracking being performed.] */ result = malloc(size); } /* Codes_SRS_GBALLOC_01_030: [gballoc_malloc shall ensure thread safety by using the lock created by gballoc_Init.] */ else if (LOCK_OK != Lock(gballocThreadSafeLock)) { /* Codes_SRS_GBALLOC_01_048: [If acquiring the lock fails, gballoc_malloc shall return NULL.] */ LogError("Failed to get the Lock."); result = NULL; } else { ALLOCATION* allocation = (ALLOCATION*)malloc(sizeof(ALLOCATION)); if (allocation == NULL) { result = NULL; } else { /* Codes_SRS_GBALLOC_01_003: [gb_malloc shall call the C99 malloc function and return its result.] */ result = malloc(size); if (result == NULL) { /* Codes_SRS_GBALLOC_01_012: [When the underlying malloc call fails, gballoc_malloc shall return NULL and size should not be counted towards total memory used.] */ free(allocation); } else { /* Codes_SRS_GBALLOC_01_004: [If the underlying malloc call is successful, gb_malloc shall increment the total memory used with the amount indicated by size.] */ allocation->ptr = result; allocation->size = size; allocation->next = head; head = allocation; g_allocations++; totalSize += size; /* Codes_SRS_GBALLOC_01_011: [The maximum total memory used shall be the maximum of the total memory used at any point.] */ if (maxSize < totalSize) { maxSize = totalSize; } } } (void)Unlock(gballocThreadSafeLock); } return result; } void* gballoc_calloc(size_t nmemb, size_t size) { void* result; if (gballocState != GBALLOC_STATE_INIT) { /* Codes_SRS_GBALLOC_01_040: [If gballoc was not initialized gballoc_calloc shall simply call calloc without any memory tracking being performed.] */ result = calloc(nmemb, size); } /* Codes_SRS_GBALLOC_01_031: [gballoc_calloc shall ensure thread safety by using the lock created by gballoc_Init] */ else if (LOCK_OK != Lock(gballocThreadSafeLock)) { /* Codes_SRS_GBALLOC_01_046: [If acquiring the lock fails, gballoc_calloc shall return NULL.] */ LogError("Failed to get the Lock."); result = NULL; } else { ALLOCATION* allocation = (ALLOCATION*)malloc(sizeof(ALLOCATION)); if (allocation == NULL) { result = NULL; } else { /* Codes_SRS_GBALLOC_01_020: [gballoc_calloc shall call the C99 calloc function and return its result.] */ result = calloc(nmemb, size); if (result == NULL) { /* Codes_SRS_GBALLOC_01_022: [When the underlying calloc call fails, gballoc_calloc shall return NULL and size should not be counted towards total memory used.] */ free(allocation); } else { /* Codes_SRS_GBALLOC_01_021: [If the underlying calloc call is successful, gballoc_calloc shall increment the total memory used with nmemb*size.] */ allocation->ptr = result; allocation->size = nmemb * size; allocation->next = head; head = allocation; g_allocations++; totalSize += allocation->size; /* Codes_SRS_GBALLOC_01_011: [The maximum total memory used shall be the maximum of the total memory used at any point.] */ if (maxSize < totalSize) { maxSize = totalSize; } } } (void)Unlock(gballocThreadSafeLock); } return result; } void* gballoc_realloc(void* ptr, size_t size) { ALLOCATION* curr; void* result; ALLOCATION* allocation = NULL; if (gballocState != GBALLOC_STATE_INIT) { /* Codes_SRS_GBALLOC_01_041: [If gballoc was not initialized gballoc_realloc shall shall simply call realloc without any memory tracking being performed.] */ result = realloc(ptr, size); } /* Codes_SRS_GBALLOC_01_032: [gballoc_realloc shall ensure thread safety by using the lock created by gballoc_Init.] */ else if (LOCK_OK != Lock(gballocThreadSafeLock)) { /* Codes_SRS_GBALLOC_01_047: [If acquiring the lock fails, gballoc_realloc shall return NULL.] */ LogError("Failed to get the Lock."); result = NULL; } else { if (ptr == NULL) { /* Codes_SRS_GBALLOC_01_017: [When ptr is NULL, gballoc_realloc shall call the underlying realloc with ptr being NULL and the realloc result shall be tracked by gballoc.] */ allocation = (ALLOCATION*)malloc(sizeof(ALLOCATION)); } else { curr = head; while (curr != NULL) { if (curr->ptr == ptr) { allocation = curr; break; } else { curr = (ALLOCATION*)curr->next; } } } if (allocation == NULL) { /* Codes_SRS_GBALLOC_01_015: [When allocating memory used for tracking by gballoc_realloc fails, gballoc_realloc shall return NULL and no change should be made to the counted total memory usage.] */ /* Codes_SRS_GBALLOC_01_016: [When the ptr pointer cannot be found in the pointers tracked by gballoc, gballoc_realloc shall return NULL and the underlying realloc shall not be called.] */ result = NULL; } else { result = realloc(ptr, size); if (result == NULL) { /* Codes_SRS_GBALLOC_01_014: [When the underlying realloc call fails, gballoc_realloc shall return NULL and no change should be made to the counted total memory usage.] */ if (ptr == NULL) { free(allocation); } } else { if (ptr != NULL) { /* Codes_SRS_GBALLOC_01_006: [If the underlying realloc call is successful, gballoc_realloc shall look up the size associated with the pointer ptr and decrease the total memory used with that size.] */ allocation->ptr = result; totalSize -= allocation->size; allocation->size = size; } else { /* add block */ allocation->ptr = result; allocation->size = size; allocation->next = head; head = allocation; } /* Codes_SRS_GBALLOC_01_007: [If realloc is successful, gballoc_realloc shall also increment the total memory used value tracked by this module.] */ totalSize += size; g_allocations++; /* Codes_SRS_GBALLOC_01_011: [The maximum total memory used shall be the maximum of the total memory used at any point.] */ if (maxSize < totalSize) { maxSize = totalSize; } } } (void)Unlock(gballocThreadSafeLock); } return result; } void gballoc_free(void* ptr) { ALLOCATION* curr = head; ALLOCATION* prev = NULL; if (gballocState != GBALLOC_STATE_INIT) { /* Codes_SRS_GBALLOC_01_042: [If gballoc was not initialized gballoc_free shall shall simply call free.] */ free(ptr); } /* Codes_SRS_GBALLOC_01_033: [gballoc_free shall ensure thread safety by using the lock created by gballoc_Init.] */ else if (LOCK_OK != Lock(gballocThreadSafeLock)) { /* Codes_SRS_GBALLOC_01_049: [If acquiring the lock fails, gballoc_free shall do nothing.] */ LogError("Failed to get the Lock."); } else { /* Codes_SRS_GBALLOC_01_009: [gballoc_free shall also look up the size associated with the ptr pointer and decrease the total memory used with the associated size amount.] */ while (curr != NULL) { if (curr->ptr == ptr) { /* Codes_SRS_GBALLOC_01_008: [gballoc_free shall call the C99 free function.] */ free(ptr); totalSize -= curr->size; if (prev != NULL) { prev->next = curr->next; } else { head = (ALLOCATION*)curr->next; } free(curr); break; } prev = curr; curr = (ALLOCATION*)curr->next; } if ((curr == NULL) && (ptr != NULL)) { /* Codes_SRS_GBALLOC_01_019: [When the ptr pointer cannot be found in the pointers tracked by gballoc, gballoc_free shall not free any memory.] */ /* could not find the allocation */ LogError("Could not free allocation for address %p (not found)", ptr); } (void)Unlock(gballocThreadSafeLock); } } size_t gballoc_getMaximumMemoryUsed(void) { size_t result; /* Codes_SRS_GBALLOC_01_038: [If gballoc was not initialized gballoc_getMaximumMemoryUsed shall return MAX_INT_SIZE.] */ if (gballocState != GBALLOC_STATE_INIT) { LogError("gballoc is not initialized."); result = SIZE_MAX; } /* Codes_SRS_GBALLOC_01_034: [gballoc_getMaximumMemoryUsed shall ensure thread safety by using the lock created by gballoc_Init.] */ else if (LOCK_OK != Lock(gballocThreadSafeLock)) { /* Codes_SRS_GBALLOC_01_050: [If the lock cannot be acquired, gballoc_getMaximumMemoryUsed shall return SIZE_MAX.] */ LogError("Failed to get the Lock."); result = SIZE_MAX; } else { /* Codes_SRS_GBALLOC_01_010: [gballoc_getMaximumMemoryUsed shall return the maximum amount of total memory used recorded since the module initialization.] */ result = maxSize; (void)Unlock(gballocThreadSafeLock); } return result; } size_t gballoc_getCurrentMemoryUsed(void) { size_t result; /* Codes_SRS_GBALLOC_01_044: [If gballoc was not initialized gballoc_getCurrentMemoryUsed shall return SIZE_MAX.] */ if (gballocState != GBALLOC_STATE_INIT) { LogError("gballoc is not initialized."); result = SIZE_MAX; } /* Codes_SRS_GBALLOC_01_036: [gballoc_getCurrentMemoryUsed shall ensure thread safety by using the lock created by gballoc_Init.]*/ else if (LOCK_OK != Lock(gballocThreadSafeLock)) { /* Codes_SRS_GBALLOC_01_051: [If the lock cannot be acquired, gballoc_getCurrentMemoryUsed shall return SIZE_MAX.] */ LogError("Failed to get the Lock."); result = SIZE_MAX; } else { /*Codes_SRS_GBALLOC_02_001: [gballoc_getCurrentMemoryUsed shall return the currently used memory size.] */ result = totalSize; (void)Unlock(gballocThreadSafeLock); } return result; } size_t gballoc_getAllocationCount(void) { size_t result; /* Codes_SRS_GBALLOC_07_001: [ If gballoc was not initialized gballoc_getAllocationCount shall return 0. ] */ if (gballocState != GBALLOC_STATE_INIT) { LogError("gballoc is not initialized."); result = 0; } /* Codes_SRS_GBALLOC_07_002: [ gballoc_getAllocationCount shall ensure thread safety by using the lock created by gballoc_Init ] */ else if (LOCK_OK != Lock(gballocThreadSafeLock)) { /* Codes_SRS_GBALLOC_07_003: [ If the lock cannot be acquired, gballoc_getAllocationCount shall return 0. ] */ LogError("Failed to get the Lock."); result = 0; } else { /* Codes_SRS_GBALLOC_07_004: [ gballoc_getAllocationCount shall return the currently number of allocations. ] */ result = g_allocations; (void)Unlock(gballocThreadSafeLock); } return result; } void gballoc_resetMetrics() { /* Codes_SRS_GBALLOC_07_005: [ If gballoc was not initialized gballoc_reset Metrics shall do nothing.] */ if (gballocState != GBALLOC_STATE_INIT) { LogError("gballoc is not initialized."); } /* Codes_SRS_GBALLOC_07_006: [ gballoc_resetMetrics shall ensure thread safety by using the lock created by gballoc_Init ]*/ else if (LOCK_OK != Lock(gballocThreadSafeLock)) { /* Codes_SRS_GBALLOC_07_007: [ If the lock cannot be acquired, gballoc_reset Metrics shall do nothing.] */ LogError("Failed to get the Lock."); } else { /* Codes_SRS_GBALLOC_07_008: [ gballoc_resetMetrics shall reset the total allocation size, max allocation size and number of allocation to zero. ] */ totalSize = 0; maxSize = 0; g_allocations = 0; (void)Unlock(gballocThreadSafeLock); } } #endif // GB_USE_CUSTOM_HEAP